CN204128694U - Temperature sensing device and air conditioner - Google Patents

Abstract

The utility model discloses a kind of temperature sensing device, this temperature sensing device comprises round table-like temperature-sensing probe, and for the sleeve of accommodating temperature-sensing probe; Temperature-sensing probe comprises probe head and probe afterbody, sleeve is the round table-like body of a hollow, sleeve comprises sleeve head and sleeve afterbody, the sleeve afterbody internal diameter of sleeve correspondence probe afterbody is less than the diameter of probe afterbody, and sleeve afterbody is spaced apart is provided with some first flutings, the some shell fragments of corresponding formation, some shell fragments support the temperature-sensing probe be contained in sleeve.The utility model supports the temperature-sensing probe in sleeve by some shell fragments of sleeve afterbody, make temperature-sensing probe and sleeve firm contact, temperature-sensing probe can be avoided to come off, and then make temperature-sensing probe can at preset position sensing the temperature of parts to be measured, thus can guarantee that temperature-sensing probe accurately tests the temperature of parts to be measured, guarantee the Effective Regulation of air conditioner to system temperature.

Description

Temperature sensing device and air conditioner

Technical field

The utility model relates to refrigeration technology field, particularly relates to a kind of temperature sensing device and air conditioner.

Background technology

At present, temperature-sensitive technology is widely used in air conditioner, detects the temperature of parts to be measured mainly through temperature-sensing probe, to carry out regulation and control to air-conditioning system temperature, such as, and the automatic defrosting system use sense temperature technique of air conditioner.Temperature sensing device in existing air conditioner primarily of the temperature-sensing probe of charged line, and is formed for the sleeve placing temperature-sensing probe, and sleeve is directly enclosed within temperature-sensing probe, is surrounded by temperature-sensing probe.When operating mode is severe, as air-conditioner transportation process, temperature sensing device fall or with under adjacent zeros parts collision situation, temperature-sensing probe easily comes off from sleeve, temperature-sensing probe is caused to hang in atmosphere, when air conditioner runs, the temperature of what temperature-sensing probe detected is air, instead of the temperature of parts to be measured, cause the electric-control system execution error of air conditioner to operate, cause air-conditioning system temperature regulate out of control and do not reach the effect of anticipation.

Utility model content

Fundamental purpose of the present utility model is to avoid temperature-sensing probe to come off, and guarantees that temperature-sensing probe accurately tests the temperature of parts to be measured, guarantees the Effective Regulation of air conditioner to system temperature.

In order to achieve the above object, the utility model provides a kind of temperature sensing device, and described temperature sensing device comprises round table-like temperature-sensing probe, and for the sleeve of accommodating described temperature-sensing probe; Described temperature-sensing probe comprises probe head and probe afterbody, described sleeve is the round table-like body of a hollow, described sleeve comprises sleeve head and sleeve afterbody, the sleeve afterbody internal diameter of the corresponding described probe afterbody of described sleeve is less than the diameter of described probe afterbody, and described sleeve afterbody is spaced apart is provided with some first flutings, the some shell fragments of corresponding formation, described some shell fragments support the described temperature-sensing probe be contained in described sleeve.

Preferably, described temperature-sensing probe is provided with external thread, the inner side of described sleeve is provided with the internal thread with described external thread adaptation, and described temperature-sensing probe is fixedly connected with internal thread by described external thread with described sleeve.

Preferably, the diameter of described probe head is greater than the diameter of described probe afterbody, and described external thread is arranged at described probe head.

Preferably, the internal diameter of described sleeve head is greater than the internal diameter of described sleeve afterbody, and described internal thread is arranged at the inner side of described sleeve head.

Preferably, the inner side of described sleeve head is convexly equipped with flange, and described internal thread is arranged at described flange.

Preferably, described temperature sensing device also comprises the clamping plate for described temperature sensing device being fixed on parts to be measured, and described clamping plate are an arc; The outside of described clamping plate is fixedly connected with the outside of described sleeve, and the inner side of described clamping plate is for being socketed described parts to be measured.

Preferably, described clamping plate comprise connecting portion, and bend by the direction of the vertical described connecting portion of described connecting portion two side direction the claw extended to form; The claw of described connecting portion both sides is all spaced apart is provided with some second flutings, the some claws of corresponding formation, and described some claws are used for described temperature sensing device to be fixed on described parts to be measured, and the outside of described connecting portion is fixedly connected with the outside of described sleeve.

Preferably, described some claws have elasticity, and described clamping plate are the arc that radius reduces gradually.

Preferably, described clamping plate and described sleeve are structure as a whole and arrange.

In addition, in order to achieve the above object, the utility model also provides a kind of air conditioner, and described air conditioner comprises temperature sensing device, and described temperature sensing device comprises round table-like temperature-sensing probe, and for the sleeve of accommodating described temperature-sensing probe; Described temperature-sensing probe comprises probe head and probe afterbody, described sleeve is the round table-like body of a hollow, described sleeve comprises sleeve head and sleeve afterbody, the sleeve afterbody internal diameter of the corresponding described probe afterbody of described sleeve is less than the diameter of described probe afterbody, and described sleeve afterbody is spaced apart is provided with some first flutings, the some shell fragments of corresponding formation, described some shell fragments support the described temperature-sensing probe be contained in described sleeve.

The temperature sensing device that the utility model provides and air conditioner, in temperature sensing device, temperature-sensing probe is round table-like body, sleeve is the round table-like body of hollow, temperature-sensing probe is contained in sleeve, the sleeve afterbody internal diameter of the probe afterbody of the corresponding temperature-sensing probe of sleeve is less than the diameter of probe afterbody, and some first flutings are offered at sleeve afterbody interval, the some shell fragments of corresponding formation, the temperature-sensing probe be placed in sleeve is supported by this some shell fragment, temperature-sensing probe is fixed in sleeve, thus make temperature-sensing probe and sleeve firm contact, temperature-sensing probe can be avoided to come off, and then make temperature-sensing probe can at preset position sensing the temperature of parts to be measured, thus can guarantee that temperature-sensing probe accurately tests the temperature of parts to be measured, guarantee the Effective Regulation of air conditioner to system temperature.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model temperature sensing device one embodiment;

Fig. 2 is the explosive view of Fig. 1;

Fig. 3 is the partial structurtes schematic diagram of Fig. 2 middle sleeve one angle;

Fig. 4 is the structural representation of another embodiment of the utility model temperature sensing device;

Fig. 5 is the structural representation of Fig. 4 middle clamp plate.

The realization of the purpose of this utility model, functional characteristics and advantage, will in conjunction with the embodiments, and be described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of temperature sensing device, and this temperature sensing device can be applicable to air conditioner.

Referring to figs. 1 through the structural representation that Fig. 3, Fig. 1 are the utility model temperature sensing device one embodiment; Fig. 2 is the explosive view of Fig. 1; Fig. 3 is the partial structurtes schematic diagram of Fig. 2 middle sleeve one angle.

In one embodiment, as depicted in figs. 1 and 2, temperature sensing device comprises temperature-sensing probe 100 and sleeve 200, sleeve 200 is for this temperature-sensing probe 100 accommodating, temperature-sensing probe 100 is round table-like body, and sleeve 200 is the round table-like body of hollow, and temperature-sensing probe 100 is fully contacted with sleeve 200, temperature-sensing probe 100 comprises probe head 110 and probe afterbody 120, sleeve 200 comprises sleeve head 210 and sleeve afterbody 220, the probe head 110 of temperature-sensing probe 100 is corresponding with the sleeve head 210 of sleeve 200, the probe afterbody 120 of temperature-sensing probe 100 is corresponding with the sleeve afterbody 220 of sleeve 200, sleeve afterbody 220 internal diameter of sleeve 200 correspondence probe afterbody 120 is less than the diameter of probe afterbody 120, and sleeve afterbody 220 is spaced apart is provided with some first flutings 221, the some shell fragments 222 of corresponding formation, some shell fragments 222 support the temperature-sensing probe 100 being contained in sleeve 200.

When needs assembling temperature sensing device, can the probe afterbody 120 of temperature-sensing probe 100 be inserted in sleeve 200 from the sleeve head 210 of sleeve 200, when probe afterbody 120 arrives the sleeve afterbody 220 of sleeve 200, the shell fragment 222 of sleeve afterbody 220 clamps the probe afterbody 120 of temperature-sensing probe 100, to support temperature-sensing probe 100, temperature-sensing probe 100 is fixed in sleeve 200, completes the assembling of temperature sensing device.After assembling temperature sensing device, temperature sensing device can be arranged on parts to be measured (as copper pipe), specifically can utilize and to be welded and fixed or temperature sensing device is fixed on parts to be measured by other fixed sturctures, to be detected the temperature of parts to be measured by temperature-sensing probe 100.

Due to shell fragment 222 there is elasticity and the internal diameter of sleeve afterbody 220 be less than probe afterbody 120 diameter, therefore when the probe afterbody 120 of temperature-sensing probe 100 reaches the sleeve afterbody 220 of sleeve 200, there is deformation and open in shell fragment 222, when not having external force to rotate temperature-sensing probe 100, the shell fragment 222 of sleeve afterbody 220 recovers, and be close to the probe afterbody 120 of temperature-sensing probe 100, guarantee that temperature-sensing probe 100 fully contacts with sleeve 200, thus can guarantee that the temperature that temperature-sensing probe 100 detects is the temperature corresponding to heat that parts to be measured are delivered on sleeve 200, also strengthen fixing this temperature-sensing probe 100 simultaneously.

Temperature sensing device of the present utility model, the temperature-sensing probe 100 be placed in sleeve 200 is supported by the shell fragment 222 of sleeve afterbody 220, temperature-sensing probe 100 is fixed in sleeve 200, thus make temperature-sensing probe 100 and sleeve 200 firm contact, temperature-sensing probe 100 can be avoided to come off, and then make temperature-sensing probe 100 can at preset position sensing the temperature of parts to be measured, thus can guarantee that temperature-sensing probe 100 accurately tests the temperature of parts to be measured, guarantee the Effective Regulation of air conditioner to system temperature.

As depicted in figs. 1 and 2, temperature-sensing probe 100 is provided with external thread, the inner side of sleeve 200 is provided with the internal thread (not shown) with this external thread adaptation, and temperature-sensing probe 100 is fixedly connected with internal thread by external thread with sleeve 200.So, when assembling temperature sensing device, can temperature-sensing probe 100 be inserted in sleeve 200, and rotate temperature-sensing probe 100, make the external thread of temperature-sensing probe 100 and the internal thread engagement of sleeve 200, guarantee that temperature-sensing probe 100 is fixed with sleeve 200 further, avoid temperature-sensing probe 100 to come off.

Particularly, the diameter of probe head 110 is greater than the diameter of probe afterbody 120, and above-mentioned external thread is arranged at probe head 110.

The present embodiment arranges external thread at the probe head 110 of temperature-sensing probe 100, and the diameter of probe head 110 is greater than the diameter of probe afterbody 120, when installing temperature-sensing probe 100, can the probe afterbody 120 of temperature-sensing probe 100 be inserted in the cavity 230 of sleeve 200, by rotating the probe head 110 of temperature-sensing probe 100, external thread on probe head 110 is engaged with the internal thread inside sleeve 200, and sleeve afterbody 220 clamps the probe afterbody 120 of temperature-sensing probe 100, thus temperature-sensing probe 100 is fixed in sleeve 200.

Particularly, as shown in Figure 2, the internal diameter of sleeve head 210 is greater than the internal diameter of sleeve afterbody 220, and above-mentioned internal thread is arranged at the inner side of sleeve head 210.

The present embodiment arranges internal thread in the inner side of sleeve 200, and the internal diameter of sleeve head 210 is greater than the internal diameter of sleeve afterbody 220, when installing temperature-sensing probe 100, can the probe afterbody 120 of temperature-sensing probe 100 be inserted in the cavity 230 of sleeve 200, by rotating the probe head 110 of temperature-sensing probe 100, the probe afterbody 120 of temperature-sensing probe 100 is made to reach the sleeve afterbody 220 of sleeve 200, sleeve afterbody 220 clamps the probe afterbody 120 of temperature-sensing probe 100, thus the probe afterbody 120 of temperature-sensing probe 100 is fitted with the sleeve afterbody 220 of sleeve 200, external thread on probe head 110 engages with the internal thread inside sleeve 200, temperature-sensing probe 100 is fixed in sleeve 200.

Particularly, as shown in Figures 2 and 3, the inner side of sleeve head 210 is convexly equipped with flange 211, and above-mentioned internal thread is arranged at flange 211.

The present embodiment arranges flange 211 in the inner side of sleeve head 210, this flange 211 arranges the internal thread with the external thread adaptation on probe afterbody 120, temperature-sensing probe 100 is connected with sleeve 200 more tight, guarantees that temperature-sensing probe 100 does not depart from sleeve 200 further.

Refer again to Fig. 4 and Fig. 5, Fig. 4 is the structural representation of another embodiment of the utility model temperature sensing device; Fig. 5 is the structural representation of Fig. 4 middle clamp plate.

With the temperature sensing device shown in Fig. 1 unlike, as shown in Figure 4, temperature sensing device also comprises clamping plate 300, and clamping plate 300 are for being fixed on parts to be measured by this temperature sensing device, and clamping plate 300 are that cross section is roughly in an arc of letter C shape; The outside of clamping plate 300 is fixedly connected with the outside of sleeve 200, and the inner side of clamping plate 300 is for being socketed parts to be measured.

Temperature sensing device shown in Fig. 4 installs clamping plate 300 in the outside of sleeve 200, clamps parts to be measured, thus temperature sensing device and parts to be measured are fixed by clamping plate 300.When installing temperature sensing device, directly clamping plate 300 are enclosed within parts to be measured, then temperature-sensing probe 100 are screwed in sleeve 200, install easy and simple to handle, air conditioner production efficiency can be improved.

Particularly, as shown in Figure 4 and Figure 5, clamping plate 300 comprise connecting portion 310, and bend by the direction of connecting portion 310 liang of side direction vertical joints 310 claw 320 extended to form, described clamping plate 300 are connected to described sleeve 200 by connecting portion 310, and are socketed on parts to be measured by claw 320.All spaced apartly on the claw 320 of described connecting portion 310 both sides be provided with some second flutings 321, corresponding form some claws 322, this some claw 322 is for being fixed on parts to be measured by temperature sensing device 100.

Clamping plate 300 are fixedly connected with sleeve 200 by connecting portion 310, when installing temperature sensing device, be fastened on parts to be measured by claw 320, clamping plate 300, sleeve 200 are fixed with parts to be measured, after again temperature-sensing probe 100 being fixed in sleeve 200, the installation of temperature sensing device can be completed, thus detect the temperature of the parts to be measured that claw 320 holds by temperature-sensing probe 100.

The claw 320 of connecting portion 310 both sides is set to spaced multiple claw 322, the second fluting 321 is provided with between each claw 322, the heat that parts to be measured are discharged can be delivered to rapidly on sleeve 200, reduce the loss of parts heat to be measured, guarantee that the temperature that temperature-sensing probe 100 detects is corresponding with the temperature of parts to be measured, reduce measuring error, thus the degree of accuracy of the temperature that temperature-sensing probe 100 detects can be improved.And, the second fluting 321 is set between each claw 322, while guaranteeing that clamping plate 300 can clamp parts to be measured, also can reduces the cost of clamping plate 300, and then the cost of temperature sensing device can be reduced.

Particularly, above-mentioned some claws 322 have elasticity, the arc that clamping plate 300 reduce gradually for radius.

Because claw 322 has elasticity, when clamping plate 300 are enclosed within parts process to be measured, there is deformation and open in claw 322, parts to be measured are made to snap in clamping plate 300 from the claw 320 of connecting portion 310 both sides, when parts to be measured snap in clamping plate 300, namely after clamping plate 300 are enclosed within parts to be measured completely, claw 322 recovers and is close on parts to be measured, thus clamping plate 300 can hold the parts to be measured of different size, make temperature sensing device can be applicable to the parts to be measured of different size, such as, in air conditioner, the copper pipe of different tube diameters is all applicable for temperature sensing device of the present utility model, thus, the versatility of temperature sensing device can be improved.In addition, the arc that clamping plate 300 reduce gradually for radius, namely clamping plate 300 reduce to its radius of the relative other end gradually from one end, the radius ratio of the place arc of clamping plate 300 one end is large relative to the radius of other end place arc, thus hold parts to be measured at clamping plate 300, one end that clamping plate 300 radius is large clamps parts to be measured further, effectively avoids clamping plate 300 to depart from parts to be measured.

Have ground, clamping plate 300 and sleeve 200 are structure as a whole and arrange.Clamping plate 300 and sleeve 200 by welding, the mode such as riveted joint is connected, and also can be integrated injection molded.

The utility model also provides a kind of air conditioner, and this air conditioner comprises temperature sensing device, and the structure of this temperature sensing device and the beneficial effect that brings, all with reference to above-described embodiment, repeat no more herein.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a temperature sensing device, is characterized in that, described temperature sensing device comprises round table-like temperature-sensing probe, and for the sleeve of accommodating described temperature-sensing probe; Described temperature-sensing probe comprises probe head and probe afterbody, described sleeve is the round table-like body of a hollow, described sleeve comprises sleeve head and sleeve afterbody, the sleeve afterbody internal diameter of the corresponding described probe afterbody of described sleeve is less than the diameter of described probe afterbody, and described sleeve afterbody is spaced apart is provided with some first flutings, the some shell fragments of corresponding formation, described some shell fragments support the described temperature-sensing probe be contained in described sleeve.

2. temperature sensing device as claimed in claim 1, it is characterized in that, described temperature-sensing probe is provided with external thread, and the inner side of described sleeve is provided with the internal thread with described external thread adaptation, and described temperature-sensing probe is fixedly connected with internal thread by described external thread with described sleeve.

3. temperature sensing device as claimed in claim 2, it is characterized in that, the diameter of described probe head is greater than the diameter of described probe afterbody, and described external thread is arranged at described probe head.

4. temperature sensing device as claimed in claim 3, it is characterized in that, the internal diameter of described sleeve head is greater than the internal diameter of described sleeve afterbody, and described internal thread is arranged at the inner side of described sleeve head.

5. temperature sensing device as claimed in claim 4, it is characterized in that, the inner side of described sleeve head is convexly equipped with flange, and described internal thread is arranged at described flange.

6. temperature sensing device as claimed in claim 1, it is characterized in that, described temperature sensing device also comprises the clamping plate for described temperature sensing device being fixed on parts to be measured, and described clamping plate are an arc; The outside of described clamping plate is fixedly connected with the outside of described sleeve, and the inner side of described clamping plate is for being socketed described parts to be measured.

7. temperature sensing device as claimed in claim 6, it is characterized in that, described clamping plate comprise connecting portion, and bend by the direction of the vertical described connecting portion of described connecting portion two side direction the claw extended to form; The claw of described connecting portion both sides is all spaced apart is provided with some second flutings, the some claws of corresponding formation, and described some claws are used for described temperature sensing device to be fixed on described parts to be measured, and the outside of described connecting portion is fixedly connected with the outside of described sleeve.

8. temperature sensing device as claimed in claim 7, it is characterized in that, described some claws have elasticity, and described clamping plate are the arc that radius reduces gradually.

9. temperature sensing device as claimed in claim 6, it is characterized in that, described clamping plate and described sleeve are structure as a whole and arrange.

10. an air conditioner, is characterized in that, described air conditioner comprises the temperature sensing device in claim 1 to 9 described in any one.